Advanced technology designed to enhance fuel combustion efficiency by increasing oxygen concentration in combustion air. Replaces portion of nitrogen in air with pure oxygen, resulting in higher flame temperatures, improved combustion efficiency, and reduced emissions of nitrogen oxides (NOx) and carbon dioxide (CO₂). Uses pure or oxygen-enriched air as combustion medium, primarily producing carbon dioxide and water vapor.

Technical Features

• Efficient CO₂ Capture: High CO₂ concentration (80-98%) reduces capture and separation costs

• Reduced Emissions: Substantially lowers exhaust gas emissions, supporting environmental protection goals

• Enhanced Thermal Efficiency: Optimizes heat energy use, improving overall system performance

• Advanced Air Separation Support: Uses cutting-edge air separation technologies (polymeric membrane, pressure swing adsorption, cryogenic distillation) to generate oxygen-enriched air

Industrial Applications

• Chemical and Power Industries: Ideal for sectors requiring efficient carbon capture, enhancing efficiency and reducing carbon emissions

• Carbon Capture and Storage (CCS): Widely used across CO₂ capture, storage, and transport chain, aiding transition to low-carbon economy

• Industrial Combustion Systems: Applicable to various industrial combustion setups, significantly reducing pollutants from traditional combustion processes

Operational Process

1. Oxygen Generation: Air separation by advanced technologies

2. Air Enrichment: Controlled oxygen/air mixing

3. Optimized Combustion: High-efficiency burning

4. Condensation: Water vapor removal by cooling

5. CO₂ Concentration: Achievement of 80-98% pure CO₂